CN219410280U - Ironing device - Google Patents

Abstract

The utility model relates to the technical field of household appliances, and provides an ironing device which comprises a shell, a steam generating part, a containing part and a conveying part, wherein the shell is provided with a steam inlet; the steam generating part is connected with the shell and comprises a box body, a heating part and an ironing part, wherein the heating part is provided with a heating cavity, the heating cavity is in fluid communication with the box body for storing fluid, the ironing part is provided with a steam outlet, and the steam outlet is communicated with the heating cavity so that the fluid in the box body is heated through the heating cavity and steam is sprayed out through the steam outlet; the accommodating part is connected with the shell and is provided with an accommodating cavity for accommodating the clothes care agent; the input port of the conveying part is communicated with the accommodating cavity, and the output port of the conveying part is communicated with the outer side of the shell. The ironing device provided by the utility model has ironing and nursing functions, the clothes nursing agent can be directly conveyed to the outer side of the shell, the conveying path of the clothes nursing agent is simple, and the ironing device can be suitable for conveying various clothes nursing agents.

Description

Ironing device

Technical Field

The utility model relates to the technical field of clothes treatment, in particular to an ironing device.

Background

In order to level the clothes, the clothes can be ironed by the ironing device, and ironing modes of the ironing device are various, such as a flat ironing machine, a garment steamer, a clothes care cabinet and the like, but clothes stains are difficult to clean, and in order to solve the problem, some ironing devices have a cleaning and washing function. Wherein, some ironing devices generate steam from a steam module to iron, thereby realizing ironing function. The ironing device has a single function, is difficult to clean stains on the surface of clothes only by steam for ironing, and cannot meet the increasing demands of users, so that the structure of the ironing device needs to be optimized.

Disclosure of Invention

The present utility model is directed to solving at least one of the technical problems existing in the related art. Therefore, the ironing device provided by the utility model has ironing and clothes caring functions, the clothes caring agent can be directly conveyed to the outer side of the shell, the conveying path of the clothes caring agent is simple, and the ironing device can be suitable for various clothes caring agents.

An ironing apparatus according to an embodiment of the present utility model includes:

a housing;

the steam generating part is connected with the shell and comprises a box body, a heating part and an ironing part, the heating part is provided with a heating cavity, the heating cavity is in fluid communication with the box body for storing fluid, the ironing part is provided with a steam outlet, and the steam outlet is communicated with the heating cavity so that the fluid in the box body is heated through the heating cavity and steam is sprayed out through the steam outlet;

A receiving part connected to the housing and configured with a receiving chamber for receiving a laundry care agent;

and the input port of the conveying part is communicated with the accommodating cavity, and the output port of the conveying part is communicated with the outer side of the shell.

According to the ironing device provided by the embodiment of the utility model, the ironing device comprises the shell, the steam generating part, the containing part and the conveying part, wherein the steam generating part is used for providing steam required by ironing, the clothes care agent contained in the containing part can be sent out of the shell through the conveying part, the conveying part directly conveys the clothes care agent to the outer side of the shell, the clothes care agent can be accurately conveyed to the position of stains, the conveying mode of the clothes care agent is simple, and the ironing device is simple in structure.

According to one embodiment of the utility model, the ironing part is connected to the shell and forms an installation space with the shell, the conveying part is positioned in the installation space, a conveying pipe of the conveying part is provided with the input port and the output port, the ironing part is connected to one end of a first side wall of the shell, the first side wall is provided with an adapting port connected with the conveying pipe, and the output port is communicated with the outer side of the shell through the adapting port.

According to one embodiment of the utility model, the cross-sectional area of the delivery tube tapers in a direction towards the fitting opening, the outlet opening being located inside the outer surface of the housing.

According to one embodiment of the utility model, the housing further comprises a second side wall connected to the first side wall, the second side wall being located on an opposite side of the ironing section, the second side wall being provided with a grip portion.

According to an embodiment of the utility model, the outlet opening forms an acute included angle or is parallel with the ironing zone of the ironing section.

According to an embodiment of the present utility model, the delivery section includes a delivery pump and a delivery pipe, the delivery pump being in communication with the delivery pipe, one end of the delivery pipe forming the input port, and the other end of the delivery pipe forming the output port.

According to one embodiment of the utility model, the shell is connected with a heat shield, a heat insulation area is formed between the heat shield and the shell, the conveying part, the accommodating part and the box body are all positioned in the heat insulation area, the part of the shell corresponding to the heat insulation area is connected with a conveying pipe of the conveying part, so that an output port of the conveying pipe is communicated with the outer side of the shell, a heating area is formed between the heat shield and the ironing part, and the heating part is positioned in the heating area.

According to one embodiment of the present utility model, a heat preservation part is further connected to the accommodating part to preserve heat of the laundry care agent.

According to one embodiment of the present utility model, the heat preservation part includes a heat conduction part, and the accommodating part and the heating part are in heat conduction connection through the heat conduction part.

According to one embodiment of the utility model, the heat preservation part comprises a water bath box, the water bath box is arranged on the outer side of the containing part, a water bath cavity is formed between the containing part and the water bath box, and the heat conduction part extends into the water bath cavity or is connected to the outer wall of the water bath box. By utilizing the water bath to heat the clothes care agent, the heating uniformity can be ensured, and the temperature range of the clothes care agent can be controlled.

According to one embodiment of the utility model, the water bath tank is connected with a first pipeline and a second pipeline, the first pipeline is connected with the water outlet end of the tank body and can be adjusted on-off, and the second pipeline is connected with the water return end of the tank body and can be adjusted on-off.

According to one embodiment of the utility model, the accommodating part is connected with a temperature sensor for detecting the temperature of the clothes care agent, the first pipeline is communicated with the water outlet end, and the second pipeline is communicated with the water return end according to the fact that the current temperature detected by the temperature sensor exceeds a temperature threshold value.

According to one embodiment of the utility model, the heat conducting part is of a solid heat conducting structure, or of a hollow heat conducting structure, and the heat conducting part can be in fluid communication with the water bath cavity and the heating cavity.

According to one embodiment of the utility model, the heating part comprises a first plate body and a second plate body, the heating cavity is formed between the first plate body and the second plate body, at least one of the first plate body and the second plate body is used for heating, and the second plate body is positioned between the first plate body and the ironing part.

According to one embodiment of the present utility model, the ironing device further comprises a recovery part, wherein the recovery part comprises a recovery box, a suction piece and a recovery pipe communicated with the recovery box, the suction piece is used for providing suction force for the recovery pipe, and the recovery pipe is communicated with a recovery port of the ironing part.

According to an embodiment of the present utility model, in the case where the heating portion includes a first plate body and a second plate body, at least one of the first plate body and the second plate body is provided with a partition portion by which the heating chamber and the recovery chamber are partitioned, the recovery chamber being in communication with the recovery pipe.

According to one embodiment of the utility model, the ironing section comprises an ironing zone and a recovery zone recessed inwards with respect to the ironing zone, the ironing zone being open to the steam outlet, the recovery zone being open to the recovery port.

According to one embodiment of the utility model, the steam outlet is located in the inner ring of the recovery zone, which is an open-loop or closed-loop area.

According to one embodiment of the utility model, the ironing part is provided with a mounting area, to which the brush body is connected.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the related art, the drawings that are required to be used in the embodiments or the related technical descriptions will be briefly described, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.

Fig. 1 is a schematic perspective view of an ironing apparatus provided in an embodiment of the present utility model;

fig. 2 is a schematic cross-sectional structure of an ironing apparatus according to an embodiment of the present utility model;

FIG. 3 is a schematic view of the part of the portion A in FIG. 2 in an enlarged configuration;

fig. 4 is a schematic structural view of an exploded state of components in the ironing device according to the embodiment of the present utility model;

fig. 5 is a schematic structural view of a first plate body of the ironing device according to the embodiment of the present utility model;

FIG. 6 is a schematic cross-sectional view of B-B of FIG. 5;

FIG. 7 is a schematic view of the structure of another first plate of the ironing device according to the embodiment of the present utility model;

fig. 8 is a schematic structural view of an ironing part of an ironing apparatus according to an embodiment of the present utility model;

FIG. 9 is a schematic cross-sectional view of the structure of C-C in FIG. 8;

fig. 10 is a partially enlarged schematic view of the portion D in fig. 9.

Reference numerals:

100. a housing; 110. a grip portion; 120. a heat shield; 130. a first sidewall; 131. an adaptation port; 140. a second sidewall;

200. a steam generation section; 210. a case; 211. a first pipeline; 212. a second pipeline; 213. a connecting pipe; 214. a water supply pump; 220. a heating section; 221. a first plate body; 2211. a first through interface; 2212. a second through interface; 2213. a third through interface; 222. a second plate body; 223. a heating chamber; 224. a recovery chamber; 225. a partition portion; 226. a flange; 227. a flow dividing rib; 230. an ironing part; 231. a steam outlet; 232. recovering the mouth; 233. an ironing zone; 234. a recovery zone; 235. a mounting groove; 236. a brush body;

300. A housing part; 310. a temperature sensor; 320. a liquid supply bin; 330. turning over the edge;

400. a conveying section; 410. a delivery tube; 420. a transfer pump; 430. an input port; 440. an output port;

500. a water bath tank; 510. a water bath cavity;

600. a heat conduction part;

700. a recovery unit; 710. a recovery box; 720. a suction member; 730. and (5) recycling the pipe.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the embodiments of the present utility model, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the embodiments of the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present utility model, unless otherwise indicated, the meaning of "a plurality", "a plurality of groups" is two or more.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "coupled," "coupled," and "connected" should be construed broadly, and may be either a fixed connection, a removable connection, or an integral connection, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in embodiments of the present utility model will be understood in detail by those of ordinary skill in the art.

In embodiments of the utility model, unless expressly specified and limited otherwise, a first feature "up" or "down" on a second feature may be that the first and second features are in direct contact, or that the first and second features are in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the embodiments of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Before describing the embodiment of the ironing device of the present utility model, the application scene of the ironing device is described, the ironing device can be independently used, or the ironing device is combined with a bracket, a cabinet body and the like, and the application scene of the ironing device is various and can be selected according to the needs. Suitable scenarios for ironing devices are for example: for ironing clothing, cloth and other textiles, or other items to be ironed. The ironing apparatus is described with reference to fig. 1 to 10, taking as an example an ironing device for ironing laundry and suitable for being held in a hand.

In accordance with an embodiment of the present utility model, as shown in fig. 1 to 10, there is provided an ironing device comprising a steam generating part 200, the steam generating part 200 comprising a housing 210, a heating part 220 and an ironing part 230, the heating part 220 being provided with a heating chamber 223, the heating chamber 223 being in fluid communication with the housing 210, the ironing part 230 being provided with a steam outlet 231, the steam outlet 231 being in communication with the heating chamber 223.

The steam generating part 200 is used for generating steam, the box 210 is used for containing water or other solution suitable for ironing, in this embodiment and the following embodiments, taking the water contained in the box 210 as an example, the water in the box 210 is introduced into the heating cavity 223 for heating, and the steam or the gas-liquid mixture generated by heating is discharged through the steam outlet 231, and the steam is used for ironing clothes under the action of the ironing part 230.

As shown in fig. 1 to 4, the ironing device further comprises a housing 100, and the steam generating part 200 is located inside the housing 100. The inside of the casing 100 is provided with various functional components, and the casing 100 can protect the functional components therein from being exposed to the outside to affect the external appearance structure of the ironing device.

In some cases, the housing 100 is provided with a grip portion 110, so as to be convenient for a user to grasp, and the grip portion 110 may be a handle, or may be a grip groove, and may be specifically configured according to the structure of the ironing device.

It will be appreciated that, referring to fig. 2 and 3, the ironing device further comprises a receiving portion 300, the receiving portion 300 being configured with a receiving chamber for receiving a laundry care agent. The receiving portion 300 is connected to the housing 100, e.g., the receiving portion is detachably connected to the housing or the receiving portion is a part of the housing, and the receiving portion 300 may be located in the housing 100, or extend entirely out of the housing 100, or partially out of the housing 100.

The laundry care agent may be directly placed in the accommodating cavity, or the laundry care agent is contained in the liquid supply bin 320, and the liquid supply bin 320 is placed in the accommodating cavity, which may be specifically selected according to the type and characteristics of the laundry care agent. The fluid supply cartridge 320 may be a disposable shell structure or a reusable shell structure. When the liquid supply bin 320 is reusable, the laundry care agent can be replenished into the liquid supply bin 320 to meet the requirement of continuously supplying the laundry care agent; when the liquid supply bin 320 is disposable, the liquid supply bin 320 is detachably connected to the accommodating portion 300, or the liquid supply bin 320 is made of a soluble material, so that the laundry care agent can be replaced conveniently.

It will be appreciated that, referring to fig. 2 and 3, the delivery part 400 is connected to the housing part 300, the input port 430 of the delivery part 400 communicates with the housing chamber, and the output port 440 of the delivery part 400 communicates with the outside of the housing 100. The input port 430 of the delivery part 400 is adapted to be fed with a laundry care agent, and the output port 440 of the delivery part 400 delivers the laundry care agent to the outside of the housing 100, so that the laundry care agent acts on the laundry to be ironed.

It is understood that the ironing unit 230 is connected to the housing 100 and forms an installation space with the housing 100, and functional components of the ironing device such as the feeding unit 400, the receiving unit 300, the steam generating unit 200, etc. may be located in the installation space. Functional components of the ironing device are arranged in the installation space, the ironing device is strong in integrity and simple in appearance structure.

Referring to fig. 4, the duct 410 of the duct 400 is constructed with an input port 430 and an output port 440, the ironing part 230 is connected to one end of the first sidewall 130 of the housing 100, the first sidewall 130 is opened with an adaptation port connected to the duct 410, and the output port 440 communicates with the outside of the housing 100 through the adaptation port.

In some cases, referring to fig. 3 and 4, the casing 100 is provided with an adapting port 131, the adapting port is communicated with the output port 440, the output port 440 is lapped at the position of the adapting port, the output port 440 is flush with the adapting port, the output port 440 does not extend out of the adapting port, and structural flatness and integrity of the ironing device are ensured. Under other conditions, the shell 100 is provided with the adapting port 131, the conveying part 400 is penetrated in the adapting port 131, the output port 440 of the conveying part 400 is positioned at the outer side of the shell 100, so that the clothes care agent is conveyed to the cleaned part, the adhesion of the clothes care agent on the surface of the shell 100 is reduced, and the cleaning of the shell 100 is ensured.

In the ironing apparatus of this embodiment, the laundry care agent is transported to the outside of the casing 100 through the transporting part 400, and is transported independently without being mixed with steam for ironing, when the suitable temperature at which the laundry care agent plays a cleaning role is low, for example, the suitable temperature is close to normal temperature, the laundry care agent is transported to the outside of the casing 100 directly through the transporting part 400, and the ironing apparatus has a simple structure and is suitable for laundry care agents of corresponding kinds.

It will be appreciated that, as shown in fig. 3, the cross-sectional area of the delivery pipe 410 gradually decreases in the direction approaching the fitting opening 131 in the installation space, and the cross-sectional area of the delivery pipe 410 for outputting the laundry care agent to the outside decreases, so that the outflow of the laundry care agent can be accelerated. The cross section of the delivery tube 410 is a cross section perpendicular to the direction in which the delivery tube 410 extends. The cross-sectional area of the portion of the tube segment of the delivery tube 410 near the output port is gradually reduced; alternatively, the cross-sectional area of the duct decreases gradually in the direction from the inlet to the outlet.

In some cases, the output port is located inside the outer surface of the housing, i.e., the delivery tube 410 extends out of the fitting port 131, which aids the delivery tube 410 in accurately delivering the laundry care agent to the target location and also reduces the laundry care agent adhering to the surface of the housing. In still other cases, the delivery tube 410 is hidden inside the fitting opening 131, avoiding that the end of the delivery tube 410 scrapes against the clothing.

It will be appreciated that the housing 100 further includes a second side wall 140, and the second side wall 140 is connected to the first side wall 130, such that the housing 100 forms a structure with one side opened, and the ironing part 230 is connected to the opening position of the housing 100, such that the housing 100 and the ironing part 230 cooperate to form an installation space.

The second side wall 140 is located at the opposite side of the ironing portion 230, and the second side wall 140 is provided with the holding portion 110, and the holding portion 110 provides a force application position for a user, so that the user can conveniently grasp in the ironing process, and the ironing effect and ironing experience are better.

The outlet 440 forms an acute angle or is parallel with the ironing surface of the ironing part 230, i.e. the outlet 440 is oriented as much as possible to the ironing surface, or forms a smaller angle, ensuring that both the laundry care agent and the steam can be accurately delivered to the laundry surface.

When the outlet 440 is parallel to the ironing surface, the outlet 440 can also accurately deliver the laundry care agent to the laundry surface during ironing. When the outlet 440 forms an acute angle with the ironing surface, the angle may be in the range of 30 °, 45 °, 60 °, etc., during ironing, the outlet 440 can simultaneously deliver the laundry care agent towards the laundry surface.

As shown with reference to fig. 3 and 4, the delivery part 400 may include a delivery pump 420 and a delivery pipe 410, the delivery pipe 410 being provided with an input port 430 and an output port 440, and the laundry-care agent in the accommodating chamber is driven to flow out by the delivery pump 420. The conveying unit 400 may be used to output a liquid laundry care agent, a foam laundry care agent, an atomized laundry care agent, or the like, and the conveying unit 400 may have various structures and may be selected as needed. For example, the output port 440 may output the laundry care agent by spraying. The structure of the output part is adjusted based on the state change of the laundry care agent required to be output from the conveying part 400.

In some cases, the conveying portion 400 is connected to the bottom of the accommodating portion 300, so that the laundry care agent on the bottom layer in the accommodating cavity can be guaranteed to be sent out, the laundry care agent on the bottom layer is prevented from staying in the accommodating cavity all the time, and the gravity of the laundry care agent can be utilized, so that the laundry care agent automatically falls.

In some cases, a puncture tip is disposed at one end of the input port 430 of the delivery tube 410, and the puncture tip penetrates through the liquid supply bin 320, so that the input port 430 is inserted into the liquid supply bin 320, and the laundry care agent can enter the input port 430; correspondingly, the positions of the liquid supply bin 320 and the puncture tip are arranged to be convenient to puncture, such as tin foil, soft plastic and the like, so that the puncture tip can conveniently penetrate through the liquid supply bin 320. In other cases, the conveying pipe 410 is connected with a first valve portion, the opening and closing control input port 430 of the first valve portion is provided with a corresponding second valve portion, the opening and closing control of the second valve portion is used for controlling the liquid supply bin 320, the first valve portion and the second valve portion are matched to be communicated with the space in the liquid supply bin 320 and the input port 430, so that the laundry care agent enters the conveying portion 400 through the valve, the sealing performance between the liquid supply bin 320 and the conveying portion 400 is better, leakage of the laundry care agent can be avoided, and the liquid supply bin 320 can be reused.

It will be appreciated that the ironing apparatus comprises a heat-preserving part, which is used for preserving heat of the laundry care agent in the liquid supply bin 320, so that the laundry care agent reaches a suitable temperature with a good cleaning effect, and the temperature of the laundry care agent can be controlled within a temperature range which can be reached by the heat-preserving part.

Wherein, the heat preservation portion controls the heat preservation temperature according to the kind of clothing care agent.

Based on the laundry care agent comprising a nonionic or ionic laundry care agent, the heat preservation part controls the temperature of the laundry care agent to be greater than or equal to 45 ℃ and less than or equal to 65 ℃; or, based on the laundry care agent including the bio-enzyme, the heat preservation part controls the temperature of the laundry care agent to be 20 ℃ or more and 40 ℃ or less. Of course, the proper temperature of the clothes care agent is above 100 ℃, so that the heat preservation temperature can be controlled to be higher than 100 ℃, and the heat preservation temperature can be adjusted according to actual needs.

As can be appreciated, referring to fig. 2 to 4, the heat preservation part includes a heat conduction part 600, and the receiving part 300 is heat-conductively connected with the heating part 220 through the heat conduction part 600 to heat the laundry care agent in the receiving part 300. The heat of the heating part 220 can be conducted to the accommodating cavity, that is, the heat can be conducted to the laundry care agent to adjust the temperature of the laundry care agent, so that the laundry care agent reaches a proper temperature with a better cleaning effect, the laundry care agent fully plays a cleaning role, the problem that the ironing device lacks temperature control of the laundry care agent is solved, and the decontamination effect is prevented from being influenced due to poor temperature of the laundry care agent.

The proper temperature of the laundry care agent is understood to be the temperature with the best or better decontamination effect of the laundry care agent, and the temperature can be a temperature range or a temperature value. Some laundry care agents suitably have a temperature of from 50 ℃ to 60 ℃ and some laundry care agents suitably have a temperature of greater than 100 ℃.

The heat for heating the laundry care agent directly uses the heat of the heating part 220, and an independent heating structure is not required to be provided for the accommodating part 300, so that the structure of the ironing device can be simplified, the heat of the heating part 220 can be fully utilized, and the heat efficiency is higher.

The heat conduction connection mode can be contact heat conduction, convection heat conduction, heat radiation and the like, and the heat conduction mode is various and is not limited herein.

The laundry care agent can be liquid, solid-liquid mixture, gas-liquid mixture and the like, and can be dry cleaning agent, laundry detergent, bleaching agent, softener, brightening agent, laundry particles and the like, and the type and flow state of the laundry care agent are not limited. In some cases, the laundry care agent may volatilize after cleaning, avoiding residual laundry care agent in the laundry. When the laundry care agent is a dry cleaning agent, dry cleaning can be achieved during ironing, wherein some of the dry cleaning agent has a volatile character and can be volatilized after dry cleaning.

It can be understood that the accommodating part 300 is thermally connected to the heating part 220 through the heat conducting part 600. The heat conducting part 600 can conduct the heat of the heating part 220 to the accommodating part 300 to heat the laundry care agent in the accommodating part 300, so that the laundry care agent reaches a proper temperature.

The heat conducting part 600 may be a structure such as a heat conducting rod, a heat conducting belt, a heat conducting block, etc., the material of the heat conducting part 600 may be copper, aluminum or a composite heat conducting material with good heat conducting performance, the shape structure and the material of the heat conducting part 600 are various, and a structure with high heat conducting coefficient is selected. In some cases, the heat-conducting portion 600 is covered with a heat-insulating layer, so that heat loss is reduced, and the heat of the heat-conducting portion 600 can be prevented from affecting the performance of other components of the ironing device. For example, the heat conductive part 600 is a copper rod, and the heat conductive part 600 may include one or more copper rods, each of which is covered with a heat insulating layer on the outside, or a plurality of copper rods are covered with a whole heat insulating layer on the outside.

The heat conducting part 600 may be connected to the heating part 220, and the heat conducting part 600 is in contact with the heating part 220 to conduct heat, or the heat conducting part 600 extends into the heating cavity 223, and steam in the heating cavity 223 heats the heat conducting part 600, or a combination of the two heating modes.

Of course, when the heat conducting part 600 is not provided between the receiving part 300 and the heating part 220, the receiving part 300 may also be in direct contact with the heating part 220 to conduct heat, or radiate to conduct heat.

It can be appreciated that, referring to fig. 2 to 4, the heat preservation portion includes a water bath 500, the water bath 500 is disposed at the outer side of the accommodating portion 300, a water bath cavity 510 is formed between the accommodating portion 300 and the water bath 500, the heat conduction portion 600 stretches into the water bath cavity 510, the heat conduction portion 600 contacts with the water bath 500 to conduct heat, the heat conduction portion 600 contacts with water in the water bath cavity 510 to conduct heat, the heat conduction effect is better, the water in the water bath cavity 510 is facilitated to be heated rapidly, and then the laundry care agent is heated rapidly, so that the laundry care agent is heated up to a proper temperature rapidly. The clothes care agent in the accommodating cavity is heated through the water bath, heating can be controlled below 100 ℃, the clothes care agent is suitable for clothes care agents with proper temperature less than 100 ℃, the clothes care agents are prevented from being heated to a temperature exceeding proper temperature, and the cleaning effect of the clothes care agents under proper conditions is ensured.

In some cases, the heat conducting part 600 may also be connected to the outer wall of the water bath 500, and the heat of the heat conducting part 600 is conducted into the water bath chamber 510 through the water bath 500. The specific connection position of the heat conductive part 600 can be flexibly adjusted.

Referring to fig. 2 and 3, the heat conductive part 600 may have a solid structure, and heat is conducted by the heat conductive property of the material of the heat conductive part 600 itself. Alternatively, the heat conducting part 600 has a hollow structure (not shown), the inner space of the heat conducting part 600 is communicated with the water bath cavity 510 and the heating cavity 223, and the hot steam in the heating cavity 223 can enter the water bath cavity 510 through the cavity of the heat conducting part 600, and the hot steam enters the water bath cavity 510 to provide heat. In the case that the heat conducting part 600 has a hollow structure, the heat conducting part 600 can be communicated with the liquid supply bin and the heating cavity 223, and heat is transferred by directly contacting steam with the laundry care agent, so that the laundry care agent can be heated up quickly.

In some cases, the accommodating portion 300 and the water bath tank 500 cooperate to form a closed water bath cavity 510, that is, water vapor in the water bath cavity 510 is sealed in the water bath cavity 510, so that water vapor is prevented from flowing out from between the water bath tank 500 and the accommodating portion 300.

As shown in fig. 2 and 3, the accommodating portion 300 is provided with a turnover edge 330, the turnover edge 330 is lapped over the water bath box 500, the water bath box 500 supports the accommodating portion 300 through the turnover edge 330, the water bath cavity 510 is closed through the turnover edge 330, the accommodating portion 300 can be flexibly disassembled from the water bath box 500, and the accommodating portion 300 and the water bath box 500 are simple in structure. The turnover edge 330 can be fixedly connected with the water bath box 500 in a clamping, riveting and other manners, so that the fixing stability of the accommodating part 300 and the water bath box 500 is ensured.

Through the mode of turning over hem 330 and supporting accommodation portion 300, accommodation portion 300 can hang to establish in water bath chamber 510, avoids accommodation portion 300 and water bath chamber 510, heat conduction portion 600 direct contact, guarantees that each face of accommodation portion 300 all heats clothing care agent through the heat of water in the water bath chamber 510, can guarantee the heating homogeneity of clothing care agent.

It will be appreciated that the steam generating part 200 and the water bath 500 are both connected to the housing 100 and located within the housing 100, and that the housing 100 serves to protect the internal components thereof, and also to secure the overall appearance of the ironing device.

It will be appreciated that, referring to fig. 2 and 3, the water bath 500 is connected with a first pipe 211 and a second pipe 212, the first pipe 211 is connected with the water outlet end of the tank 210 and can be adjusted on-off, and the second pipe 212 is connected with the water return end of the tank 210 and can be adjusted on-off. When the first pipeline 211 is communicated with the water outlet end of the tank body 210, the second pipeline 212 is disconnected from the water return end, the water tank body 210 can provide a water source for the water bath tank 500, and the temperature of hot water in the water bath cavity 510 can be regulated through cold water in the tank body 210; when the second pipeline 212 is communicated with the water return end of the tank body 210, the first pipeline 211 is disconnected with the water outlet end, hot water in the water bath cavity 510 can be introduced into the tank body 210, heat can be provided for water in the tank body 210, preheating of the water is realized, and cooling of the water in the water bath cavity 510 is also realized; the water bath cavity 510 forms a circulating water flow path with the box 210 through the first pipeline 211 and the second pipeline 212, the water bath cavity 510 is communicated with the box 210, and the water bath cavity 510 can also be used for adjusting the water temperature in the water bath cavity 510, so that multiple functions can be realized, and the structure is simple and the design is ingenious.

It can be appreciated that the accommodating part 300 is connected with a temperature sensor 310 for detecting the temperature of the laundry care agent, and the first pipe 211 is communicated with the water outlet end and the second pipe 212 is communicated with the water return end according to the fact that the current temperature detected by the temperature sensor 310 exceeds a temperature threshold. The temperature sensor 310 is used for detecting the temperature of the laundry care agent, and according to the temperature detected by the temperature sensor 310, the on-off state of the water bath tank 500 and the tank body 210 is adjusted to adjust the water temperature in the water bath tank 500, so as to provide proper heat for the laundry care agent and ensure that the laundry care agent is maintained at proper temperature. The temperature threshold is understood to mean, among other things, that a suitable temperature of the laundry care agent is exceeded, the temperature threshold being adjustable in dependence on the type of laundry care agent.

The first pipeline 211 is connected with a water delivery pump, the water delivery pump delivers water in the box 210 into the water bath cavity 510, the second pipeline 212 is connected with a one-way valve, the one-way valve adjusts the on-off state of the one-way valve according to pressure change in the water bath cavity 510, when the pressure in the water bath cavity 510 is larger than the opening pressure of the one-way valve, the one-way valve is opened, the water bath cavity 510 is communicated with the box 210, and the water bath cavity 510 is depressurized to the box 210 so as to ensure pressure balance in the water bath cavity 510. It should be noted that the check valve is not limited to adjusting the on-off state according to the pressure change of the water bath chamber 510, but may also adjust the on-off state according to the control signal, for example, when the temperature detected by the temperature sensor 310 exceeds the temperature threshold, the check valve is opened to send the hot water in the water bath chamber 510 into the tank 210.

It should be noted that, before the water bath tank 500 heats the water bath, the water pump is turned on to fill the water bath chamber 510 with water, and when the current temperature detected by the temperature sensor 310 exceeds the temperature threshold, part of the water in the water bath chamber 510 flows back into the tank 210 through the second pipeline 212, and the tank 210 supplements the water in the water bath chamber 510 through the first pipeline 211, so as to realize temperature regulation in the water bath chamber 510.

The temperature sensor 310 is installed at a position close to the input port 430 of the delivery pipe 410 to detect the temperature of the laundry care agent outputted through the delivery part 400, and the temperature detected by the temperature sensor 310 may accurately represent the temperature of the laundry care agent. For example, a temperature sensor 310 is also installed at the bottom of the receiving part 300 to detect the temperature of the laundry care agent outputted through the conveying part 400. Wherein the temperature sensor 310 may be inserted into the liquid supply bin 320 so as to accurately detect the temperature of the laundry care agent. Alternatively, the temperature sensor is disposed within the liquid supply compartment 320.

Next, the heating unit 220 of the steam generating unit 200 will be described.

It can be appreciated that the heating part 220 includes a first plate 221 and a second plate 222, a heating cavity 223 is formed between the first plate 221 and the second plate 222, and a heating area between the first plate 221 and the second plate 222 is larger, so that heating uniformity is better.

At least one of the first plate 221 and the second plate 222 is used for heating, and the second plate 222 is located between the first plate 221 and the ironing part 230. The heating cavity 223 is formed by matching the first plate 221 and the second plate 222, so that the heating part 220 has a simple structure and is easy and convenient to process.

At least one of the first plate 221 and the second plate 222 is electrically heated by being connected to a power source, or heated by an electromagnetic heating principle. As shown in fig. 2 and 3, the first plate 221 and the second plate 222 are connected to a power source, and heat water in the heating chamber 223.

At least one of the first plate body 221 and the second plate body 222 is used for heating, the first plate body 221 and the second plate body 222 are of plate-shaped structures, heating area is large, water is heated more uniformly in the heating cavity, uniform heating of water in the heating cavity 223 into steam is facilitated, steam output efficiency of the steam outlet 231 is guaranteed, more uniform ejection of steam from the steam outlet is facilitated, and ironing effect is optimized.

Of course, the first plate 221 and the second plate 222 may be heated by separate heating structures, and the heating modes of the heating unit 220 may be varied.

Referring to fig. 2, the heating part 220 is positioned under the cabinet 210, a connection pipe 213 is provided between the cabinet 210 and the heating part 220, the connection pipe 213 may be provided with a regulating valve, water is supplied to the heating chamber 223 when the regulating valve is opened, the water is heated to steam by the heating heat of the heating part 220, the steam is discharged through a steam outlet 231 of the ironing part 230, and the steam is used for ironing laundry. The ironing part 230, the second plate 222 and the first plate 221 are sequentially disposed from the lower side of the ironing device, the ironing part 230 is located below the heating chamber 223, and steam is discharged from the steam outlet 231. The ironing part 230 is also a plate structure, and the lower surface of the ironing part 230 is provided with an ironing area 233 for ironing, which is simple in structure and convenient to process.

The connecting pipe 213 can be connected with a water supply pump 214, and the water supply pump 214 can drive the water in the box 210 to be conveyed into the heating cavity 223, so that the structure is simple, and the flow speed can be conveniently regulated and controlled. The water supply pump connected to the first pipe 211 and the water supply pump 214 connected to the connecting pipe 213 in this embodiment may be a water pump, and the first pipe 211 and the connecting pipe 213 are both provided with a valve body (such as the above-mentioned adjusting valve), and the on/off of the first pipe 211 and the connecting pipe 213 is adjusted by the valve body, and the first pipe 211 and the connecting pipe 213 share a water pump.

The clothes care agent for cleaning clothes can be naturally volatilized, but the volatilized time is long, and residual clothes care agent is difficult to clean effectively. In order to solve the problem that the decontaminated laundry care agent and the dirt residual liquid are not recycled, the ironing device further comprises a recycling part 700 for cleaning the laundry care agent, and the recycling part 700 can suck and clean the laundry care agent on the surface of the laundry by sucking, so that the cleaning effect is good. Compared with the use of the clothes care agent with strong volatility, the cost of the clothes care agent can be reduced, the problems that dirt is not visible to naked eyes but the clothes remain on the surface of the clothes after the clothes are dried can be solved, and the problem that the human health is endangered due to the fact that the clothes care agent remains is avoided.

Next, the recovery unit 700 for recovering laundry care agents and post-washing stains will be described.

As can be appreciated, referring to fig. 2 to 4, the recovery part 700 includes a recovery tank 710, a suction member 720 and a recovery tube 730 communicating with the recovery tank 710, the suction member 720 for providing suction force to the recovery tube 730, and the recovery tube 730 communicating with the recovery port 232 of the ironing part 230. Under the negative pressure suction force of the suction member 720, the laundry care agent at the recovery port 232 is recovered into the recovery tank 710 through the recovery pipe 730, and the recovered laundry care agent is uniformly treated through the recovery tank 710.

The recovery part 700 is used for recovering a clothes care agent, a mixture of the clothes care agent and steam, and the like, and the recovery part 700 can be used for recovering various substances sprayed to clothes by an ironing device, so that the problem that chemical substances remain on the surface of the clothes is solved. The laundry care agent in the recovery tank 710 may be recycled after being treated, or the recovery tank 710 may be taken out to be washed away.

The suction member 720 may be a structure capable of providing suction force such as a negative pressure pump, a negative pressure fan, a centrifugal fan, etc., and the magnitude of the suction force may be adjusted according to the kind of the laundry care agent, the material and thickness of the laundry, etc.

It will be appreciated that, referring to fig. 5 to 7, the heating part 220 is provided with a partition 225, and the heating chamber 223 and the recovery chamber 224 are partitioned by the partition 225, and the recovery chamber 224 communicates with the recovery pipe 730. The heating chamber 223 and the recovery chamber 224 are partitioned by the partition 225, so that the steam for heating is prevented from being mixed with the recovered laundry care agent, and the ironing function and the laundry care agent recovery function can be simultaneously performed, and the structure is simple and smart. Correspondingly, the ironing part 230 is provided with a recovery port 232 communicated with the recovery cavity 224, so that the ironing part 230 is matched with the heating part 220 to recover the clothes care agent.

It is understood that in the case where the heating part 220 includes the first plate body 221 and the second plate body 222, at least one of the first plate body 221 and the second plate body 222 is provided with a partition 225, the heating chamber 223 and the recovery chamber 224 are partitioned by the partition 225, and the recovery chamber 224 communicates with the recovery pipe 730. The heating cavity 223 and the recovery cavity 224 are separated by the separation part 225, so that the steam for heating is prevented from being mixed with the recovered clothes care agent, the heating and recovery functions can be realized by utilizing the cooperation of the first plate 221 and the second plate 222, and the ironing function and the clothes care agent recovery function can be simultaneously executed, so that the clothes care agent recovery device is simple and ingenious in structure.

The recycling cavity 224 may be a straight-line extending space, a curved extending space, or an annular space, and the recycling cavity 224 has various structures. For example, the recovery chamber 224 may be a straight line profile space, an S-shaped profile space, a U-shaped profile space, a V-shaped profile space, an O-shaped profile space, or the like. As shown in fig. 5 and 6, the recovery chamber 224 is a substantially annular profile space, i.e., the recovery chamber 224 is a space having a substantially O-shaped profile. Referring to fig. 7, the recovery chamber 224 is a closed loop space.

Referring to fig. 2, 3, and 5 to 7, at least one of the first plate 221 and the second plate 222 is provided with a concave surface, the concave surface is concave inward with respect to an end surface, the end surface is adapted to be in sealing contact with the other of the first plate 221 and the second plate 222, so that a space between the first plate 221 and the second plate 222 forms a cavity, and then the partition 225 is matched, and the surface of the partition 225 is flush with the end surface, so that a heating cavity 223 and a recovery cavity 224 which are independent of each other are simultaneously formed between the first plate 221 and the second plate 222. The heating cavity 223 can surround the recovery cavity 224, the heating cavity 223 can be arranged in parallel with the recovery cavity 224, the recovery cavity 224 can also surround the heating cavity 223, the relative position relationship between the heating cavity 223 and the recovery cavity 224 is flexible, and the heating cavity 223 can be selected according to requirements. It can be understood that the space between the first plate 221 and the second plate 222 is formed by arranging the parts protruding toward each other and in sealing contact with each other, so that the heating cavity 223 and the recycling cavity 224 are formed between the first plate 221 and the second plate 222, and the structures of the first plate 221 and the second plate 222 are simple.

As shown in fig. 2 and fig. 5 to fig. 7, the edge of the first plate 221 is formed with a flange 226 surrounding the heating portion 220, the end face of the flange 226 is the surface of the first plate 221 attached to the second plate 222, the first plate 221 is provided with a separation portion 225, the end face of the separation portion 225 is also attached to the surface of the second plate 222, the separation portion 225 is matched with the flange 226, two-stage sealing connection can be achieved, the sealing performance between the first plate 221 and the second plate 222 can be enhanced, the surface of the second plate 222 facing the first plate 221 is a plane, and the structure of the second plate 222 is simple.

As shown in fig. 5 and 6, when the shape of the recovery cavity 224 enclosed by the partition 225 is an open loop, the heating cavity 223 includes a first cavity and a second cavity which are mutually communicated, and a partial area of the first cavity and the second cavity is separated by the partition 225, that is, the first cavity and the second cavity which are communicated are arranged from the edge of the first plate 221 to the central direction, and the first cavity is matched with the second cavity, the position of the recovery cavity 224 is favorable for sufficiently and efficiently recovering the laundry care agent, and the water in the heating cavity 223 can be heated into steam quickly and efficiently, so that sufficient steam required for ironing is provided.

Wherein, the notch portion of the disconnection of the recovery cavity 224 is formed at the first plate 221, the heat conducting portion 600 is inserted into the third through-hole 2213, and the recovery cavity 224 is formed at the notch portion of the disconnection of the recovery cavity 224, so that the heat conducting portion 600 and the recovery cavity 224 can be prevented from being communicated, the heat conducting effect of the heat conducting portion 600 is prevented from being affected by the temperature of the recovery cavity 224, and the heat of the heating portion 220 is effectively conducted to the heat conducting portion 600.

As shown in fig. 5, when the recovery chamber 224 surrounded by the partition 225 is in an open loop shape, the heating chamber 223 includes two partial areas communicated through the notch, which can enlarge the area of the heating chamber 223 and facilitate the rapid heating of water into steam.

As shown in fig. 7, the recovery chamber 224 surrounded by the partition 225 is shaped as a closed loop, and the heating chamber 223 is located at the inner periphery of the recovery chamber 224.

In other cases, the separating portion 225 encloses a plurality of independent recovery chambers 224 (not shown), and each recovery chamber 224 is provided with a corresponding recovery tube 730, so that the waste liquid in each recovery chamber 224 can be effectively recovered.

Wherein, when each recovery chamber 224 is connected with recovery pipe 730, guarantee waste liquid recovery demand, when each recovery chamber 224 is connected with a plurality of recovery pipes 730, can optimize waste liquid recovery demand.

Referring to fig. 5 to 7, the first plate 221 is provided with a first penetrating port 2211 communicated with the heating cavity 223, a connecting pipe 213 communicated with the box 210 is penetrated in the first penetrating port 2211, and the box 210 can send water to the heating cavity 223 through the connecting pipe 213, so that the water sending is more flexible and the structure is simple. Of course, one or two or more first through-openings 2211 may be further provided, and specifically, the number of the first through-openings 2211 may be selected according to needs, which is not limited.

Referring to fig. 5 to 7, the first plate 221 is provided with a second penetrating port 2212 communicated with the recycling cavity 224, the second penetrating port 2212 is internally provided with two recycling pipes 730 in a penetrating manner, and the recycling pipes 730 can be used for conveying recycled materials to the recycling bin 710, so that the recycling effect of the laundry care agent is good and the recycling efficiency is high. Of course, one or three or more second through-openings 2212 may be further provided, and specifically, the number of the second through-openings 2212 may be selected according to needs, which is not limited.

Referring to fig. 7, at least one of the first plate 221 and the second plate 222 is provided with a diverting rib 227 protruding toward the opposite side, and a communication channel is provided between adjacent diverting ribs 227, so that the heating cavity 223 is a through space, the diverting ribs 227 break up the water flow in the heating cavity 223 and prolong the flow time of the water flow in the heating cavity 223, the diverting ribs 227 can also increase the contact area between the heating part 220 and the water flow, the diverting ribs 227 can also increase the surface roughness of the heating part 220 to prevent the leidenfrost effect, and therefore, the arrangement of the diverting ribs 227 can improve the gasification efficiency of the water in multiple aspects.

It will be appreciated that, with reference to fig. 8 to 10, the ironing section 230 comprises an ironing zone 233 and a recovery zone 234 recessed inwards with respect to the ironing zone 233, the ironing zone 233 being provided with a steam outlet 231 communicating with the heating chamber 223, the recovery zone 234 being provided with a recovery port 232.

Here, the recovery zone 234 is recessed with respect to the ironing zone 233, it being understood that the ironing section 230 is integrally formed with the recovery zone 234 and the ironing zone 233; alternatively, the recovery area 234 and the ironing area 233 are separate components, the ironing unit 230 is assembled by a two-part structure, and the specific molding mode of the ironing unit 230 is not limited and can be adjusted as required.

The opening for recovering the clothes care agent and the opening for outputting steam are positioned on two surfaces, so that the effect of ironing is prevented from being influenced by the mixing of the output steam and the recovered clothes care agent; the recovery area 234 is concave relative to the ironing area 233, so that the recovery opening 232 is concave relative to the ironing area 233, suction force for recovering the laundry care agent is provided for the laundry through the whole recovery area 234, the suction force of the recovery opening 232 is distributed more uniformly, the influence on ironing effect of the laundry due to overlarge local suction force of the recovery opening 232 is avoided, the area of the recovery area 234 is larger than that of the recovery opening 232, and the effective area for recovering the laundry care agent can be enlarged. When the ironing surface of the ironing device is pressed against the garment, the concave surface of the recovery zone is kept at a distance from the garment, and the recovery zone and the garment surface form separate cavities. The panel outside the recovery area can compress the clothes to prevent new wrinkles from being formed during suction, and the panel outside the recovery area can tension the clothes while keeping a certain distance from the surface of the clothes to prevent the recovery opening from damaging the clothes or blocking the recovery opening during suction.

In some cases, the recovery zone is provided with a plurality of recovery ports, and the recovery zone 234 surrounds the steam outlet 231 to facilitate sufficient recovery of water vapor and laundry care agents.

The recovery port 232 may be directly connected to the recovery pipe 730 (not shown), that is, the recovery pipe 730 extends into the recovery port 232, or, referring to fig. 7 and 8, the recovery port 232 is connected to the recovery chamber 224, and the recovery pipe 730 is connected to the recovery port 232 through the recovery chamber 224.

It can be appreciated that at least one side of the recovery area 234 is provided with a steam outlet 231, and the position relationship between the recovery area 234 and the steam outlet 231 is flexible, and can be set as required, so that stable output of steam and efficient recovery of the laundry care agent can be ensured. It should be noted that, it is necessary to ensure that the steam outlet 231 communicates with the heating chamber 223 correspondingly, in which case the position of the steam outlet 231 can be flexibly set.

In some cases, as shown in fig. 8, the recovery zone 234 is an annular region, and the steam outlet 231 is located within the annular recovery zone 234 defined by the recovery zone 234. Alternatively, the recovery area 234 is an annular area, and the steam outlets 231 (not shown) are provided on the inner and outer circumferences of the annular surface, so that steam is uniformly output at a plurality of positions of the ironing area 233 to optimize ironing effect.

The ring shape is understood to be a closed-loop structure, and is not limited to a specific shape, and may be a circular ring, a rectangular ring, a polygonal ring, or other irregularly shaped rings.

It will be appreciated that the ironing section 230 is formed with a mounting area for attachment of the brush body 236, the brush body 236 being detachably attached to the mounting area.

It can be understood that, referring to fig. 8 to 10, the installation area is an installation groove 235 formed by the concave of the ironing part 230, the installation groove 235 is connected with a brush body 236, the brush body 236 can be used for cleaning clothes, the brush body 236 is matched with a clothes care agent, the cleaning effect of the clothes can be optimized, the problem that the cleaning effect is poor due to scrubbing lacking external force after the clothes care agent is sprayed is solved, and the decontamination only depends on the reaction of dry cleaning liquid and dirt.

The brush body 236 can be connected with the ironing part 230 through interference fit, the brush body 236 can be connected with the ironing part 230 through a fastener, the brush body 236 can also be connected with the ironing part 230 through clamping, bonding, magnetic attraction and other modes, and the connection mode of the brush body 236 and the ironing part 230 is various and can be specifically selected according to the needs.

In other cases, the ironing device can be connected with a cleaning brush driven by a circulating transmission mechanism such as a crawler belt, a transmission belt or a transmission chain, and the brushing effect is optimized.

It will be appreciated that referring to fig. 2 and 4, the housing 100 is connected to the heat shield 120, the heating part 220 and the ironing part 230 are provided at one side of the heat shield 120, and the accommodating part 300, the case 210, the transporting part 400, the water bath 500, the recovery tank 710, the suction part 720, and the like are provided at the other side of the heat shield 120.

A heat-insulating zone is formed between the heat shield 120 and the housing 100, and the conveying part 400, the accommodating part 300 and the box are all located in the heat-insulating zone, a heating zone is formed between the heat shield 120 and the ironing part 230, and the heating part 220 is located in the heating zone.

The heat shield 120 may be located in the housing 100, where the heat shield 120 isolates the heating portion 220 and the ironing portion 230 on the same side, so as to reduce the diffusion of heat from the heating portion 220 and the ironing portion 230 to other components in the housing 100, avoid the excessive temperature in the housing 100, and ensure the use safety of the ironing device.

The shell corresponds the conveyer pipe of transport portion of partly connection of thermal-insulated district to make the delivery outlet of conveyer pipe and the outside intercommunication of shell, avoid the temperature in the zone of heating to influence the performance of clothing care agent, guarantee the performance of clothing care agent, can also avoid the temperature of heating portion to influence the life-span of transport portion 400.

Hereinafter, the structure and operation of the ironing apparatus will be described with reference to fig. 1 to 10, taking an example in which the accommodating part 300 is provided for accommodating dry washing liquid, and the ironing apparatus is integrated with a dry cleaning ironing function.

Water required for steam generation of the ironing device is added from the cabinet 210, the cabinet 210 is fixed above the heat shield 120, the water supply pump 214 connected through the cabinet 210 pumps water from the cabinet 210 and sends water to the heating part 220, the connection pipe 213 sends water to the heating cavity 223 formed between the first plate 221 and the second plate 222, the water is heated and vaporized in the heating cavity 223 to generate steam, and high-temperature steam is ejected from the steam outlet 231 of the ironing part 230 to spray the steam to the surface of the laundry, and ironing is performed by using the heat of the steam.

Temperature regulation for dry wash:

the storage part 300 is provided with a liquid supply chamber 320 for storing dry cleaning liquid, the storage part 300 is fixed above the heat shield 120, and after the dry cleaning liquid is atomized by the driving force of the infusion pump of the delivery part 400, the dry cleaning liquid is sprayed to the laundry from the outlet 440 (which may be a spray outlet) of the delivery pipe 410. The temperature sensor 310 is provided in the accommodating part 300 to monitor the temperature of the dry washing liquid in real time. The water bath 500 is sleeved on the outer side of the containing part 300, a water bath cavity 510 is formed between the water bath 500 and the containing part 300, the water bath 500 is connected with the first plate 221 through the heat conducting part 600 and stretches into the heating cavity 223, heat in the heating cavity 223 is conducted into the water bath cavity 510 through the heat conducting part 600, and dry washing liquid is heated by using the heat of the water bath cavity 510, wherein the water bath 500 and the containing part 300 are made of materials with high heat conductivity coefficients, the water bath 500 and the containing part 300 are kept in good contact, and the water bath 500 and the box 210 are kept in good on-off adjustment so as to ensure heat transfer. In some cases, a heat conduction aid such as heat conduction grease may be applied between the outer surface of the accommodating portion 300 and the liquid supply bin 320. One end of the heat conducting part 600 is connected to the first plate 221 in a sealing manner, the other end is connected to the water bath 500 in a sealing manner, and the heat conducting part 600 and the water bath 500 can be made of materials with high heat conductivity coefficients. The heat conducting part 600 and the outer surface of the water bath 500 are wrapped with a heat insulating layer, which may be made of a heat insulating material, to prevent heat from being dissipated to the inner space of the ironing device.

The tank 210 may deliver water to the water bath chamber 510 through a water delivery pump and the first pipe 211. The heat conducting part 600 can conduct the heat of the heating part 220 to the water bath cavity 510 (comprising the wall plate of the water bath box 500, the wall plate of the containing part 300 and the water in the water bath cavity 510 formed by the wall plate and the wall plate of the containing part 300) through the heat transfer or the steam in the heating cavity 223. The water bath 500 is connected with the tank 210 through the second pipeline 212, the second pipeline 212 is provided with a one-way valve, and when the one-way valve is pressed or controlled to be opened, water in the water bath cavity 510 can flow back into the tank 210 through the second pipeline 212. The first and second pipelines 211 and 212 may be provided with solenoid valves, respectively, to adjust the water path between the water bath chamber 510 and the tank 210.

With respect to recovery of dry wash liquor:

the recovery box 710 is fixed on the heat shield 120, and performs dry cleaning liquid recovery by the suction force of the suction piece 720 and the recovery pipe 730, and the recovery pipe 730 penetrates through the first plate 221 and is communicated with the recovery cavity 224, when the recovery box is in operation, the separation part 225 of the first plate 221 is matched with the second plate 222 to form the recovery cavity 224, and the suction piece 720 and the recovery pipe 730 act to generate negative pressure in the recovery cavity 224, so that residual dry cleaning liquid at the recovery area 234 of the ironing board can be sucked and recovered. The recovery area 234 is concave relative to the ironing area 233, and when waste liquid is absorbed, negative pressure for sucking can not be applied to the area outside the recovery area 234, so that steam is prevented from being sucked by the recovery port 232 in the ironing process, and ironing effect is ensured.

Wherein, the ironing part 230 is fixedly connected with the brush body 236 by bonding or magnetic attraction, and the brush body 236 is fixedly connected in the mounting groove 235 of the ironing part 230 for brushing clothes.

Regarding the specific working procedure of the ironing device:

after the ironing device is started, the solenoid valve of the connection pipe 213 of the steam generating part 200 is closed, the solenoid valve of the first pipe 211 connected to the water bath tank 500 is opened, and the water pump connected to the tank 210 is operated to input a set amount of water from the tank 210 into the water bath chamber 510, so that the water bath chamber 510 is filled with water, and then the solenoid valve of the first pipe 211 is closed. The temperature of the first plate 221 and the second plate 222 rises rapidly after being electrified, heat is transferred to the water bath 500 through the heat conducting part 600 so as to heat water in the water bath 510, and then the heat of the water is transferred to the dry cleaning liquid through the accommodating part 300, so that the temperature of the dry cleaning liquid reaches a preset temperature range with optimal performance (generally below 65 ℃). The temperature sensor 310 connected to the container 300 may monitor the temperature of the dry washing liquid. When the temperature sensor 310 detects that the temperature of the dry cleaning solution is too high, the electromagnetic valve of the first pipeline 211 is opened again, cold water in the tank body 210 is input into the water bath cavity 510, the pressure in the water bath cavity 510 is increased, the one-way valve in the second pipeline 212 connected with the water bath box 500 is opened under pressure, and hot water in the water bath cavity 510 is discharged into the tank body 210, so that the temperature of the dry cleaning solution is reduced, the volume of the tank body 210 is far larger than that of the water bath cavity 510, good heat dissipation is achieved, and heat generated after the hot water in the water bath cavity 510 is discharged into the tank body 210 is quickly dissipated, so that overheating of the water in the tank body 210 is avoided. Through the process, the heat preservation of the dry cleaning liquid is realized, so that the dry cleaning liquid always works in the temperature range with optimal performance.

When the clothes are dry-cleaned and ironed by local dirt, the outlet 440 (spraying port) of the conveying part 400 of the ironing device is aligned to the dirt, the dry-washing liquid spraying switch is pressed, the conveying pump 420 for conveying the dry-washing liquid is started, the conveying pump 420 generates negative pressure to suck out and atomize the dry-cleaning liquid, and the dry-cleaning liquid is sprayed to the dirt area from the spraying port through the conveying pipe 410. Then, the ironing part 230 of the ironing device presses the steam button after flattening the dirty area of clothes, the water supply pump 214 connected with the box body 210 is started, the water supply pump 214 generates negative pressure to send the water of the box body 210 into the heating cavity 223 between the first plate body 221 and the second plate body 222 through the connecting pipe 213, the water is heated and vaporized to generate steam, and the high-temperature steam is ejected from the steam outlets 231 correspondingly communicated with the second plate body 222 and the ironing part 230 for ironing the clothes. During ironing, the brush body 236 connected to the ironing unit 230 brushes the dirty laundry along with the movement of the ironing device, thereby assisting the dry cleaning solution to remove the dirt from the laundry.

After decontamination and ironing are completed, a waste liquid recovery switch is pressed down, a suction piece 720 is started to generate negative pressure, waste liquid on the surface of clothes is sucked into a recovery cavity 224 through a recovery port 232 of an ironing part 230, and residual dry washing liquid after decontamination reaction and residual water vapor on the clothes are sucked into a recovery box 710 through a recovery pipe 730 communicated with the recovery cavity 224, so that the dry washing waste liquid is completely recovered and the clothes are quickly recovered to dryness after ironing.

The ironing apparatus integrates the steam ironing, dry cleaning and waste liquid recovery functions into the ironing apparatus by means of the steam generating part 200, the supply part for supplying the dry cleaning agent, the recovery part 700 for recovering the dry cleaning agent, the brush body 236, and the like. The supply part comprises a conveying part 400 for conveying the dry washing liquid, an output port 440 of the conveying part 400 can be a spray port, the supply part is also provided with a water bath box 500, the water bath box 500 is used for heating dry washing liquid in a water bath, and the water temperature in the water bath cavity 510 can be adjusted by matching the water bath box 500 with the box body 210 of the steam generating part 200 so that the water temperature is suitable for the dry washing liquid to reach a proper temperature; the recovery part 700 is used for recovering the used dry washing liquid and solving the problem of dry washing agent residue on the surface of the clothes; the brush body 236 is connected in the mounting groove 235 of the ironing part 230, so that the local dirty parts of the clothes are brushed in the ironing process. Based on the foregoing, the ironing device integrates functions of temperature adjustment, spraying, clothes rubbing, ironing, waste liquid recovery treatment and the like of the dry washing liquid, thereby being beneficial to improving the decontamination effect of the ironing device and realizing effective recovery of residual dry washing liquid after decontamination.

The above embodiments are only for illustrating the present utility model, and are not limiting of the present utility model. While the utility model has been described in detail with reference to the embodiments, those skilled in the art will appreciate that various combinations, modifications, or equivalent substitutions can be made to the technical solutions of the present utility model without departing from the spirit and scope of the technical solutions of the present utility model, and it is intended to be covered by the scope of the claims of the present utility model.

Claims (13)

1. An ironing apparatus, comprising:

a housing;

the steam generating part is connected with the shell and comprises a box body, a heating part and an ironing part, the heating part is provided with a heating cavity, the heating cavity is in fluid communication with the box body for storing fluid, the ironing part is provided with a steam outlet, and the steam outlet is communicated with the heating cavity so that the fluid in the box body is heated through the heating cavity and steam is sprayed out through the steam outlet;

a receiving part connected to the housing and configured with a receiving chamber for receiving a laundry care agent;

and the input port of the conveying part is communicated with the accommodating cavity, and the output port of the conveying part is communicated with the outer side of the shell.

2. Ironing apparatus as claimed in claim 1, characterized in that the ironing section is connected to the housing and forms an installation space with the housing, the conveying section is located in the installation space, a conveying pipe of the conveying section is configured with the input port and the output port, the ironing section is connected to one end of a first side wall of the housing, the first side wall is provided with an adapting port connected with the conveying pipe, and the output port is communicated with the outside of the housing through the adapting port.

3. Ironing apparatus as claimed in claim 2, characterized in that the cross-sectional area of the duct decreases gradually in a direction towards the fitting opening, the outlet opening being located inside the outer surface of the housing.

4. Ironing apparatus as claimed in claim 2, characterized in that the housing further comprises a second side wall connected to the first side wall, the second side wall being located on the opposite side of the ironing section, the second side wall being provided with a grip portion.

5. Ironing apparatus as claimed in claim 1, characterized in that the outlet opening is at an acute angle or parallel to the ironing surface of the ironing section.

6. Ironing apparatus as claimed in claim 1, characterized in that the conveying section comprises a conveying pump and a conveying pipe, the conveying pump being in communication with the conveying pipe, one end of the conveying pipe forming the input port and the other end of the conveying pipe forming the output port.

7. Ironing apparatus as claimed in claim 1, characterized in that the housing is connected with a heat shield, a heat-insulating zone is formed between the heat shield and the housing, the conveying part, the receiving part and the box are all located in the heat-insulating zone, the part of the housing corresponding to the heat-insulating zone is connected with a conveying pipe of the conveying part, so that an outlet of the conveying pipe is communicated with the outside of the housing, a heating zone is formed between the heat shield and the ironing part, and the heating part is located in the heating zone.

8. Ironing apparatus as claimed in claim 1, characterized in that the heating portion comprises a first plate body and a second plate body, the heating chamber being formed between the first plate body and the second plate body, at least one of the first plate body and the second plate body being for heating, the second plate body being located between the first plate body and the ironing portion.

9. Ironing apparatus as claimed in any one of claims 1-8, characterized in that the holding portion is further connected with a heat-retaining portion for retaining the laundry care agent.

10. Ironing apparatus according to claim 9, characterized in that the heat-preserving part comprises a water bath tank, a heat-conducting part, a first pipe and a second pipe, wherein a water bath cavity is formed in the water bath tank;

the first pipeline is connected with the water outlet end of the box body and can be adjusted on-off, and the second pipeline is connected with the water return end of the box body and can be adjusted on-off; the water bath box is connected with a containing part, the containing part is provided with a containing cavity for containing a liquid supply bin, the liquid supply bin contains the clothes care agent, a water bath cavity is formed between the containing part and the water bath box, at least one of the containing part and the liquid supply bin is provided with a temperature sensor, the first pipeline is communicated with the water outlet end according to the fact that the current temperature detected by the temperature sensor exceeds a temperature threshold value, and the second pipeline is communicated with the water return end;

The water bath box is in heat conduction connection with the heating part through a heat conduction part, and the heat conduction part is connected with the outer wall of the water bath box or stretches into the water bath cavity;

the heat conducting part is of a solid heat conducting structure; or, the heat conduction part is a hollow heat conduction structure, and the heat conduction part can be in fluid communication with the water bath cavity and the heating cavity.

11. Ironing apparatus as claimed in any one of claims 1-8, characterized in that it further comprises a recovery section comprising a recovery tank, a suction member for providing suction to the recovery pipe, and a recovery pipe in communication with the recovery tank, the recovery pipe being in communication with a recovery port of the ironing section.

12. Ironing apparatus as claimed in claim 11, characterized in that, in the case that the heating portion comprises a first plate body and a second plate body, at least one of the first plate body and the second plate body is provided with a partition portion by which the heating chamber and a recovery chamber are partitioned, the recovery chamber being in communication with the recovery tube;

the ironing part comprises an ironing area and a recovery area which is sunken inwards relative to the ironing area, the ironing area is provided with the steam outlet, and the recovery area is provided with the recovery port;

The steam outlet is positioned at the inner ring of the recovery zone, and the recovery zone is an open-loop zone or a closed-loop zone.

13. Ironing apparatus as claimed in any one of claims 1-8, characterized in that the ironing section is provided with a mounting area, to which a brush body is connected.